会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明申请
    • AUTOMATIC CONFIGURATION FOR LINEAR MODE OF SWITCHING POWER SUPPLY
    • 开关电源线性模式的自动配置
    • US20070210773A1
    • 2007-09-13
    • US11681758
    • 2007-03-03
    • James KohoutJohn CarpenterBrett Thompsen
    • James KohoutJohn CarpenterBrett Thompsen
    • G05F1/00
    • H02M3/157H02M2001/0045Y10S323/901
    • A method and apparatus for a Regulator that automatically configures to work in either SMPS mode or linear mode are disclosed. in one embodiment, the method includes inputting a constant current source to a CBoot_pin for a first predetermined amount of time upon enabling an autodetect circuit by a Regulator control circuit. The CBoot voltage at the CBoot_pin is hen determined to see if the CBBoot voltage at the CBoot_pin is above a predetermined CBoot voltage for a second predetermined amount of time. The Regulator is then switched to operate in SMPS mode if the CBoot voltage is substantially continuously above the predetermined CBoot voltage for a second predetermined amount of time. The SMPS is operated in linear mode if the CBoot voltage is substantially continuously below or equal to the predetermined CBoot voltage for a second predetermined amount of time.
    • 公开了一种用于自动配置为以SMPS模式或线性模式工作的稳压器的方法和装置。 在一个实施例中,该方法包括在通过稳压器控制电路启用自动检测电路时,将稳定电流源输入到CBoot_pin第一预定量的时间。 确定CBoot_pin处的CBoot电压,以确定CBoot_pin处的CBBoot电压是否高于预定的CBoot电压达预定的第二预定时间量。 如果CBoot电压基本上连续地超过预定的CBoot电压达到第二预定时间量,则调节器被切换到工作在SMPS模式。 如果CBoot电压在第二预定时间量内基本上连续地低于或等于预定的CBoot电压,则SMPS以线性模式操作。
    • 4. 发明申请
    • MULTIPLE MODE SWITCHING REGULATOR HAVING AN AUTOMATIC SENSOR CIRCUIT FOR POWER REDUCTION
    • 具有自动传感器电路功能的多模式开关稳压器
    • US20050200341A1
    • 2005-09-15
    • US10797780
    • 2004-03-09
    • James KohoutDavid Baldwin
    • James KohoutDavid Baldwin
    • G05F1/56H02M1/12
    • H02M3/158H02M2001/0032Y02B70/16
    • A switching regulator having a control circuit that automatically senses when a low power mode should be initiated without the use of expensive external components nor an extensive amount of external components is disclosed herein. The switching regulator includes an input switching device, a driver, an inductor, a first output switching device, a second output switching device and an output node. The control circuit includes a low power switching device connected to the output node and the second end of the inductor. An amplifier connects the low power switching device and the first output switching device. A first current mirror couples to the amplifier to mirror the difference between the output current through the output load and the current supplied at the second end of the inductor. A second current mirror couples to the first current mirror to mirror the current difference through a current source and a capacitor connected in parallel across the current source. A comparator compares the voltage generated by the capacitor with a predetermined voltage source. A first and second AND gate couples to the comparator. The output of the first AND gate provides a entry signal that initiates the low power mode for the switching regulator. The second AND gate couples to receive this entry signal. The output of the first AND gate provides a exit signal that indicates when the switching regulator is not in low power mode. The first AND gate couples to receive this exit signal.
    • 本文公开了一种具有控制电路的开关调节器,其自动地感测何时应该启动低功率模式,而不需要使用昂贵的外部组件,也没有大量的外部组件。 开关调节器包括输入开关装置,驱动器,电感器,第一输出开关装置,第二输出开关装置和输出节点。 控制电路包括连接到输出节点和电感器的第二端的低功率开​​关装置。 放大器连接低功率开关装置和第一输出开关装置。 第一电流镜耦合到放大器以反映通过输出负载的输出电流与在电感器的第二端提供的电流之间的差异。 第二电流镜耦合到第一电流镜以通过电流源和在电流源上并联连接的电容器来反射电流差。 比较器将电容器产生的电压与预定的电压源进行比较。 第一个和第二个与门耦合到比较器。 第一与门的输出提供一个入口信号,启动开关稳压器的低功耗模式。 第二个与门耦合以接收该输入信号。 第一与门的输出提供一个输出信号,指示开关调节器何时不处于低功率模式。 第一个与门耦合以接收该退出信号。